DE2732465A1 - Metal contacts and barrier layers sensing device - has light-weight operating sensor units connected by screened cables and uses sinusoidal oscillator - Google Patents

Abstract

The sensor has a sinusoidal oscillator. There is a harmonic suppressing filter and a transmitter aerial, a receiver with an aerial, a band-pass filter and a harmonic receiver, with display and supply units and amplifier. The receiver aerial is rotated by 90 deg. with respect to the transmitter aerial and a diplexer is used as a bandpass filter passing only the first and second harmonics; a two-channel mixer or two separate mixers are used for the first and second harmonics. There are two separate amplifiers, a digital signal processing unit and a display unit. The sensor is divided into a lighter sensor unit and operating unit connected by screened cables.

Description

From Microwaves magazine, August 1976, pages 12 and 14 is such a known on sensing device. This device uses the long-known property from the fact that metallic contacts and barriers impinging on them are electromagnetic Reflect waves in a non-linear manner. The prerequisite is that they work together connected metals or barrier layers have a certain electrical conductivity exhibit. While this effect was used to be annoying in the vicinity of radio stations felt, this effect became in the above-mentioned reference

Detection of vehicles and camouflaged metallic objects exploited. Only the third harmonic or

second harmonic measured. As a result of the great distance from the objects the considerably weaker first harmonic could not be determined. Since the first harmonic quadratic powers of the defect and the second harmonic cubic Corresponding to the powers of the defect, a large area of objects could thus be used cannot be detected. Above all, there were a lot of false signals because the display the second harmonic alone does not always distinguish it from natural Objects.

The object of the present invention is to provide a tracking device of the initially mentioned to train mentioned type and egg corresponding method for tracking in such a way that it is especially designed for short measuring distances and despite being easier and lightweight construction has improved reliability.

The object is achieved by the characterizing part of the Claim 1 or claim 17 solved. Further refinements of the invention are presented in the subclaims.

With the shorter removal of the tracking device it is possible, too measure the first harmonic. Between the transmitting antenna, the object to be measured and the receiving antenna three radiation-coupled dipoles are formed. The object of which the nonlinearity goes out, forms a Hertzian dipole. The object acts as a passive transponder for frequency conversion.

It has been shown that the harmonic frequency emitted by the object does not have the same polarization as the transmission frequency. For this reason is it possible to move the receiving antenna in relation to the transmitting antenna by go0, so that the polarization direction of the two antennas is different by go0. Through this a necessary decoupling between transmitter and receiver is possible. this leads to not only to a more reliable display, but also to a reduction in the electrical power requirement and thus to a reduction in the Weight. The receiving device in particular serves the goal of higher reliability, which is set up to receive both the first and the second harmonic. In many cases, only simple components are used for the two channels, for example a single two-channel mixer can be used. Also, are a single Reference signal generator and a single display device provided. The reference signal generator can be in the form of a simple resistor network, the signal being immediate can be obtained from the power supply. It is expedient for processing the signals uses a digital signal processing that is miniaturized from modern Components consists and has a high reliability. To facilitate the Handling, and for use for short distances, is that of the invention Detector divided into two components, namely a lighter sensor unit and into an operating unit. Both are connected by flexible cables, and the sensor unit can be guided along the areas, walls, etc. to be examined. It will a distance of about 30 cm is maintained. The saving of components through a simple occupation for the two channels and the appropriate division of the electronic Components in two units only makes the use of this device for the intended purpose Possible application, namely for searching walls, structures, bridges, the surface of the earth for ore deposits, buried metal objects (archeology) and the search for buried subjects, for example in earthquakes or avalanche accidents. The operating unit can be parked at a table or for the operator The sensor unit, which weighs only about one kg, can be carried around being held.

This sensor unit is preferably on a several meters long Rod attached and can therefore be operated from a single location can be used in the area of a few square meters.

Dipole antennas of the type of ordinary television receiver antennas can be used as antennas be used. Good results were using an antenna array achieved in which the transmitting antenna as a strip-shaped half-wave dipole and the to it vertical receiving antenna as broadband, delta-shaped receiving dipole are designed, with both antennas aligned on a common center are.

To search for any buried subjects, it is sufficient if they are have a bunch of keys with you with at least two keys touching each other, or if you have at least two touching coins with you, that is enough even a tooth seal or crown. Of course, it is also sufficient to take one with you Transistor device, even when not switched on.

A has proven to be particularly advantageous for the intended use Proven frequency range from 100 to 2000 MHz. Best results were with a Transmission frequency of 500 MHz achieved, which is a first harmonic of 1000 MHz and a corresponds to the second harmonic of 1500 MHz. This means that objects can be used with a length of about 5 to 60 cm can be safely detected. The occurrence of false signals is due to the evaluation of the first and second harmonics instead of the previously known Evaluation of the second harmonic alone is greatly reduced. That's for the planned Purpose of use extremely important, as it is time-consuming and costly destruction can be avoided by existing walls. The same goes for inconclusive Excavations for natural resources etc.

An embodiment of the present invention is in the drawing shown. The figures show: FIG. 1 an overall overview of an inventive device Detection device, Figure 2 an overview of a digital signal processing according to a preferred embodiment of the invention, Figure 3 is a front view of an example for an antenna arrangement.

In FIG. 1, 30 is the operating unit and 10 is the sensor unit denotes which are connected to one another via flexible cables 28. In the operating unit 30, an oscillator 4o is provided for the transmission frequency, which is connected to the power supply 38 is connected. In addition, the two main amplifiers are in the operating unit 30 32 for the two receiving channels for the first and second harmonic signals, which introduce the signals to be processed into a digital signal processor 34. Following the signal processing 34 is a voltage-controlled oscillator 36 provided.

In the sensor unit 10, a harmonic filter 26 is provided on the transmission side, which only lets through the desired transmission frequency.

This is followed by a balun circuit 24 which performs an adaptation the asymmetrical coaxial line to the symmetrical ribbon cable, which leads to the transmitting antenna 12.

The transmitting antenna is a simplified version of that used by television known receiving antenna.

Parallel to the transmitting antenna 12, but rotated by 900, so that If the polarization is shifted by 900, the receiving antenna 14 is arranged. Following this, a diplexer 16 is arranged in the form of a high-pass (band-pass) filter, which only sends the first and second harmonics of the transmit frequency to a two-channel mixer or to two separate mixers 18. From one also in the sensor unit arranged local oscillator 22 is fed to the mixer 18, a reference frequency. The input signal of the processed according to the principle of a heterodyne receiver The first and second harmonics of the transmission frequency are preamplifiers after the mixer 18 20 supplied. The set up of a preamplifier is necessary to get a signal sufficiently high amplitude to get before it via flexible cable 28 of the operating unit 70, namely the main amplifiers 32, is supplied.

In FIG. 2 there is essentially the digital signal processing 34 shown according to a preferred embodiment. The IF signal from the two-channel mixer or separate mixers 18 is initially converted into DC signals implemented. These direct current signals become comparison devices 52, 54, in which they are connected to reference signals from a single (not shown) reference signal source can be compared, which via setting circuits, preferably potentiometer circuits to which comparison devices are fed. The signals are fed to threshold value detectors 56, 58 from the comparison device. These detectors enter when a set threshold is exceeded Signal to an AND gate 60 on. In addition, these signals can also be connected to corresponding Display devices, for example on simple lamps, are displayed. That The occurrence of a signal indicates the reception of a first or a second harmonic at. The AND gate 60 is usually connected in such a way that it only occurs when one is present Signal at both inputs, i.e. when a first and a second occur Harmonic that passes a signal. Only then occurs at the exit of the AND gate 60 Signal that can be fed to a display device, for example a further lights or preferably an oscillator 36, with headphones connected downstream 37. The AND gate can also be set in such a way that when there is a Signal at a single input, for example that for the second harmonic sends out an output signal. This can be the case when objects with very weak or nonexistent first harmonic should be examined. The oscillator 36 can be switched on by the output signal of the AND gate 60. For a better display it is also possible to select from the rectified Signals of the IF signals of the first and second harmonics to form a sum signal, to amplify this and to use it to control the frequency of the oscillator 36. A larger sum signal results in a higher frequency of the oscillator. If you choose this frequency in the audible range, you can adjust the frequency in one of the Make oscillator 36 connected headphones 37 audible.

The sum signal can preferably be used in an operational amplifier 66 are formed, to which the outputs of the two converters 50 are fed via series resistors will. One input of this operational amplifier can preferably with its output fed back via a resistor. It can be done in parallel for supplying the output of the operational amplifier 66 to the oscillator 36 as well a simple electrical indicating instrument 68, for example a pointer instrument attach, the amplitude of the voltage being a direct indication of the amplitude of the harmonics present. With this, as well as with the audio frequency, the Find the exact location of a small metallic contact in a wall, etc.

When the embodiment of the present invention is used A power generator with a quartz-stabilized control oscillator is used on the transmitter side. A transmitter output power of 4 W is sufficient. The high performance is above all as a result of high coupling and conversion losses at the non-linear transitions or the objects to be searched for. The density and depth of penetration in the masonry plays a less important role as well. A lower density of the material If the result is a higher penetration density, then the penetration depth in snow avalanches is a few meters, with masonry about 30 cm. The generator must have a large harmonic separation have, for example, of 26 dB min.

The entire tracking device is designed to minimize interference Added value. Therefore the pre-amplification was done directly at the connection of the antenna routed to avoid losses through long cables. It's an intermediate frequency of nominal 250 MHz provided. The intermediate frequency main amplifiers 32 may be Have gain control to avoid overdriving the entire system. However, a simple sensitivity adjustment is preferred, depending on the selected Channel provided.

Operating unit and sensor unit can be transported in two suitcases will. The guide rod 44 can also be collapsed and easily transported will.

The inventive on sensing device thus enables in particular for short measuring distances an insert for locating electrical contacts and Barriers in a very wide range of applications. The device is simple, of lightweight construction, easily transportable and still has an improved Reliability compared to known devices.

Claims (18)

Detector for metallic contacts and barriers P a t e n t a fl 5 p r c h e 1. Detection device for metallic contacts and barriers, with a transmitting part for electromagnetic waves, consisting of a sine wave generator, a harmonic blocking filter and a transmitting antenna, with a receiving part, consisting of from a receiving antenna, a band filter and a harmonic receiver, with a Display device as well as power supply and amplifier devices, g e k e n n z e i c h n e t d u r c h a) S.ne separated from the transmitting antenna (12) and you opposite receiving antenna (14) rotated by 90 °, b) a diplexer (16) as a band filter at the input of the receiving antenna (14), the only the 1st and 2nd harmonics of the transmission frequency lets through, c) a two-channel mixer or two separate mixers for the 1st and 2nd harmonic (18) following the diplexer (16), d) two subsequent shared amplifier devices e) digital signal processing (), f) a display device (36, 37; 68) responding to it, g) a division the components into a lighter sensor unit (lo) and an operating unit (o), which are connected to one another by shielded lines (28). 2.) Aufspiirgerat according to claim zi, characterized by the following Features of digital signal processing (34): ^) åe one converter (50) per channel for converting the IF signal into a direct current signal, b) a single reference signal generator hir both channels, preferably in the form of a simple resistor network, where the signal is obtained directly from the power supply, c) two comparison devices (52,54), for comparing the reference signal from the reference signal generator with the direct current signal, d) threshold value detectors (56,58) which, when the threshold exceeding harmonics deliver a signal, e) an AND gate (60), which receives the two signals of the threshold value detectors (56,58) and a display signal supplies. 3.) On sensing device according to claim 2, characterized in that the Reference signal is adjustable, for example by potentiometer circuits (62,64). 4.) On sensing device according to claim 2 or 3, characterized in that that the AND gate (60) is adjustable in such a way that it either only occurs at the same time A signal occurs in both channels or only in one of the two channels provides an output signal to the display device. 5.) tracking device according to claim 2 to 4, characterized in that both the threshold detectors (56,58) and the output of the AND gate (60) Display instruments are connected in parallel. 6.) Aufspiirgerst according to one of claims 1 - 5, characterized in that that as a sena antenna (? o) a strip-shaped half-wave dipole, as a receiving antenna (72) a broadband, delta-shaped receiving dipole is used and both antennas are aligned towards a common center (Fig. 7,). 7.) On sensing device according to one of the preceding claims 1 to 5, characterized in that a device (6) for adding up the two rectified digital signals of the two channels is provided to the frequency of a voltage controlled The oscillator (36) is controlled by the display signal from the digital signal processing (34) is switched on. 8.) Detection device according to claim?, Characterized in that the Means (66) for summing is an operational amplifier, the inputs of which with the direct current signals of the two channels are fed, with ballast resistors are provided and the output of the operational amplifier via a resistor with is connected to an input of the same, and on the other hand the oscillator (36) fed will. 9.) tracking device according to claim 7 or 8, characterized in that at the output of the device (66) for summing an electrical display device (68) is provided, which is preferably connected in parallel to the oscillator (36). 1o.) Tracking device according to one of Claims 9 to 9, characterized in that that at the oscillator output a headphone (37) for the perception of an acoustic signal changing pitch depending on the oscillator frequency is provided. 11.) Tracking device according to one or more of the preceding claims 1 to 1o, characterized in that in the sensor unit (10) on the transmitting side the Harmonic filter (26) followed by a balun circuit (24) for adaptation the unbalanced coaxial line to the balanced ribbon line and then connected the transmitting antenna (12) are provided on it, d ?. on the receiving side the receiver antenna (14), followed by the diplexer (16), the white-channel mixer or two individual mixers (18), a preamplifier (o) and one with the two-channel mixer or local oscillator (? 9) connected to the two individual mixers (18) are provided that in the operating unit connected to the sensor unit (io) (3o) the power supply (38), the transmission frequency oscillator (4o), main amplifier (32), the digital signal processing (54) and the voltage-controlled oscillator (36) are provided. 12.) Aufspiirgerat according to one or more of claims 1 to 11, characterized in that the transmission frequency is in the range between loo to 2ooo MHz lies. 13.) Aufspürgerat according to claim 12, characterized in that the Transmission frequency is 500 MHz. 14.) Tracking device according to one or more of claims 1 to 13, characterized in that the sensor unit (10) at one to several meters long, preferably collapsible rod (44) is movably attached. 15.) Detection device according to one of claims 1 to 14, characterized by using it to examine structures for hidden reinforcement defects as well as electrical lines and circuits. 16.) Aufspürger.it according to any one of claims 1 to 14, characterized by using it to find buried and drowned people. 17.) Aufspürgerat according to claim 1 to 14, characterized by the Use when searching for ore deposits and buried metal objects. 18.) Method for detecting metallic contacts and barriers with a transmitter for electromagnetic waves, consisting of a sine wave generator, a harmonic cut filter and a transmitting antenna, with a receiving part, consisting of a receiving antenna, a band filter and a harmonic receiver, with a display device as well as power supply and amplifier devices, characterized by the process steps: a) Sending a transmission frequency over the transmitting antenna (12), b) receiving the 1st and 2nd harmonics of this transmission frequency through a receiving antenna (14) and a downstream filter in the form of a diplexer (16), c) the processing of these signals in a two-channel mixer (18) as well a digital signal processing (34) after a corresponding amplification, d) Display of existing first and second harmonics of the transmission frequency. The present invention relates to a metallic call tracer Contacts and barriers, with a transmitting part for electromagnetic waves, consisting of a sine wave generator, a harmonic blocking filter and a Transmitting antenna, with a receiving part, consisting of a receiving antenna, a Band filter and a harmonic receiver, with a display device and power supply and amplifier devices. The invention also relates to a method for tracking for metallic contacts and barriers as well as the use of a tracking device to find buried subjects, ore deposits, etc.